British physicist Peter Higgs (right), who proposed the Higgs boson in the 1960s, speaks with Belgium physicist Francois Englert at Wednesday's event.

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Originally published on July 5, 2012 7:51 am

Scientists have discovered a new subatomic particle with profound implications for understanding our universe. On Wednesday, they announced they've found a particle believed to be the long-awaited Higgs boson. Nicknamed the "God particle," it represents the final piece in a theory that explains the basic nature of our universe.

Nothing has been easy in the search for the Higgs particle. It takes a huge amount of energy to create one, something on the scale of the energies that existed in the early moments of the Big Bang. Recreating that level of energy requires smashing particles together in the world's most powerful accelerators. Scientists knew that even if they created a Higgs boson, it would break apart immediately. The only way to identify it would be to sift through that subatomic debris, looking for signs of the decaying Higgs.

But experiments over the past year at CERN's particle accelerator in Switzerland, the Large Hadron Collider, seem to have surmounted all those hurdles. Early Wednesday, Joe Incandela, spokesperson for CERN's Compact Muon Spectrometer (CMS) team stood before a packed auditorium in Switzerland to report the big news — in a way that only geeky physicists could really appreciate.

"In the region of 125 GEV, they combine and give us a combined significance of 5 standard deviations," he said, proving that even momentous discoveries sound dry if you get down far enough into the weeds.

Fabiola Gianotti spoke on behalf of a second huge collaborative experiment, the ATLAS group, which also reported results. The audience didn't even wait for her to speak after she flashed a slide showing that team's statistics.

"I'm not done yet," she told the group. "There's more to come, be patient!"

Through nearly two hours of technical details, the crowd of scientists got what it had come for. In the end, Rolf Heuer, director of the CERN particle accelerator, finally put it in plain language.

"As a layman, I would now say, 'I think we have it,' " he announced. But in almost the same breath, Heuer put his scientist hat back on and started shading his language: "We have observed a new particle consistent with a Higgs boson."

The scientists weren't ready to come right out and say this is the Higgs boson. It's a new particle, to be sure, and one that at first glance looks like the Higgs boson. But is this actually the Higgs boson everyone was expecting or something a bit different?

"That remains open," Heuer said.

He said it could take three or four more years to run the experiments necessary to figure out exactly what they've found. But Higgs or no, the discovery of a new particle is a major deal.

"This boson is a very profound thing that we found," said Incandela of the CMS team, putting it in layman's terms after his formal presentation. "This is not like other ordinary particles. We're reaching into the fabric of the universe at a level we've never done before. It's a key to the structure of the universe."

If it is indeed the Higgs boson, the discovery would provide evidence that there's a field — the Higgs field — that permeates our universe and interacts with particles to create mass. It explains why the atoms that make us who we are actually have substance.

"It's a rather profound thing," Incandela said. "That we can maybe answer the question someday: Where does our substance come from — where does mass come from?"

Those deep ideas will be teased out in experiments to be run in the years to come. But Wednesday was a celebration for the entire field of physics. Even Peter Higgs, who proposed the Higgs particle back in the 1960s, was on hand.

"Congratulations to everybody involved in this tremendous achievement," he said. "For me, it's really an incredible thing that it's happened in my lifetime."

Higgs will now wait, along with everyone else, to see whether this new particle really is the one that bears his name.

Copyright 2012 National Public Radio. To see more, visit http://www.npr.org/.

Transcript

ROBERT SIEGEL, HOST:

From NPR News, this is ALL THINGS CONSIDERED. I'm Robert Siegel. Scientists announced today that they have discovered a new subatomic particle, a discovery that has profound implications for understanding our universe. They believe that they have finally found the long-awaited Higgs boson. It's been named the "God particle" by some. The particle represents the final piece in a theory that explains the basic nature of our universe.

Even so, as NPR's Richard Harris reports, scientists are hedging their bets just a bit.

RICHARD HARRIS, BYLINE: Nothing has been easy in the search for the Higgs particle. It takes a huge amount of energy to create one, something like what happened during the early moments of the Big Bang. That requires smashing particles together in the world's most powerful accelerators. And scientists knew even if they created a Higgs boson, it would break apart immediately. And sifting through that subatomic debris to look for signs of the Higgs particle is a monumental challenge.

But experiments over the past year at the Large Hadron Collider in Switzerland seem to have surmounted all those hurdles. Early this morning, Joe Incandela, stood before a packed auditorium in Switzerland to report the big news, in a way that only geeky physicists could really appreciate.

JOE INCANDELA: In the region of 125 GEV, they combine to give us a combined significance of 5 standard deviations.

(SOUNDBITE OF APPLAUSE)

HARRIS: Yep, even momentous discoveries sound dry if you get down far enough into the weeds. Fabiola Gianotti spoke on behalf of a second huge collaborative experiment that also reported results. And the audience didn't even wait for her to speak after she flashed up a slide showing her team's statistics.

(SOUNDBITE OF APPLAUSE)

FABIOLA GIANOTTI: I'm not done yet. There's more to come, be patient.

HARRIS: Through nearly two hours of technical details, the crowd of scientists got what they had come for. And in the end, Rolf Heuer, director of the CERN particle accelerator, finally put it in plain language.

ROLF HEUER: As a layman, I would now say, I think we have it. You agree?

(SOUNDBITE OF CHEERING AND APPLAUSE)

HARRIS: But in almost the same breath, Heuer put his scientist hat back on and started shading his language.

HEUER: We have observed a new particle consistent with a Higgs boson. Hah.

(SOUNDBITE OF LAUGHTER)

HARRIS: The scientists weren't ready to come right out and say that this is the Higgs boson. A new particle, to be sure, and one that at first glance looks like the Higgs boson. But is this actually the Higgs boson everyone was expecting or something a bit different?

HEUER: That remains open.

HARRIS: Heuer said it could actually take three or four more years to run the experiments necessary to figure out exactly what they have found. But Higgs or no, the discovery of a new particle is a major big deal. Joe Incandela had a chance to put it in layman's terms after his formal presentation.

INCANDELA: This boson is a very profound thing that we found, okay. This is not like other ordinary particles. It really is - we're reaching into the fabric of the universe at a level we've never done before. This is telling us something - it's a key to the structure of the universe.

HARRIS: If it is indeed the Higgs boson, the discovery would provide evidence that there's a field, the Higgs field, that permeates our universe and interacts with particles in order to create mass. It explains why the atoms that make us who we are actually have substance.

INCANDELA: It's a rather profound thing that we can maybe answer the question someday of, where does our substance come from, where does mass come from?

HARRIS: Those deep ideas will be tested out in experiments to be run in the years to come. But, of course, today was a celebration for the entire world of physics. Even Peter Higgs, who proposed the particle back in the 1960s, was on hand.

HARRIS: He will now wait, along with everyone else, to see whether this new particle really is the one that bears his name. Richard Harris, NPR News. Transcript provided by NPR, Copyright National Public Radio.